Abstract
Climate change has resulted in major changes in plant phenology across the globe that includes leaf‐out date and flowering time. The ability of species to respond to climate change, in part, depends on their response to climate as a phenological cue in general. Species that are not phenologically responsive may suffer in the face of continued climate change. Comparative studies of phenology have found phylogeny to be a reliable predictor of mean leaf‐out date and flowering time at both the local and global scales. This is less true for flowering time response (i.e., the correlation between phenological timing and climate factors), while no study to date has explored whether the response of leaf‐out date to climate factors exhibits phylogenetic signal. We used a 52‐year observational phenological dataset for 52 woody species from the Forest Botanical Garden of Heilongjiang Province, China, to test phylogenetic signal in leaf‐out date and flowering time, as well as, the response of these two phenological traits to both temperature and winter precipitation. Leaf‐out date and flowering time were significantly responsive to temperature for most species, advancing, on average, 3.11 and 2.87 day/°C, respectively. Both leaf‐out and flowering, and their responses to temperature exhibited significant phylogenetic signals. The response of leaf‐out date to precipitation exhibited no phylogenetic signal, while flowering time response to precipitation did. Native species tended to have a weaker flowering response to temperature than non‐native species. Earlier leaf‐out species tended to have a greater response to winter precipitation. This study is the first to assess phylogenetic signal of leaf‐out response to climate change, which suggests, that climate change has the potential to shape the plant communities, not only through flowering sensitivity, but also through leaf‐out sensitivity.
Highlights
The biological fingerprint of global warming has been recognized in organisms and communities around the world (Parmesan, 2006; Root et al, 2003)
This study is the first to assess whether the leaf-out phenological response to climate factors exhibits phylogenetic signal and the first to document whether the leaf-out response to climate is different among plant functional groups
We find the evidence for phylogenetic conservatism in the response to temperature for both leaf-out and flowering phenology
Summary
The biological fingerprint of global warming has been recognized in organisms and communities around the world (Parmesan, 2006; Root et al, 2003). Wolkovich et al (2013) and CaraDonna and Inouye (2015) did not find phylogenetic signal in flowering response to temperature across several North American plant communities It remains unknown whether these regional results are applicable to other geographic regions or other plant communities, or other phenological traits such as leaf-out sensitivity (Davis et al, 2010). (4) Are FLD and FFD and their sensitivity to climate associated with different functional groups including: native status, pollination syndrome, fruity type, and leaf-out/flowering time? We investigate the following questions: (1) Do FLD and FFD exhibit phylogenetic signal? (2) Are FLD and FFD sensitive to temperature and winter precipitation? (3) Does the sensitivity of FLD and FFD to temperature and precipitation exhibit phylogenetic signal? (4) Are FLD and FFD and their sensitivity to climate associated with different functional groups including: native status, pollination syndrome, fruity type, and leaf-out/flowering time?
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